on high-tension side

简明释义

高压侧的

英英释义

例句

1.The power outage occurred on high-tension side, affecting several neighborhoods.

停电发生在高压侧，影响了几个社区。

2.The technician was instructed to work on high-tension side of the transformer to ensure proper voltage regulation.

技术人员被指示在变压器的高压侧工作，以确保适当的电压调节。

3.Safety measures must be strictly followed when operating on high-tension side of the electrical grid.

在电网的高压侧操作时，必须严格遵守安全措施。

4.During maintenance, workers must wear protective gear on high-tension side to prevent accidents.

在维护期间，工人必须穿戴保护装备，在高压侧以防止事故发生。

5.All equipment must be tested on high-tension side before being put into service.

所有设备在投入使用前必须在高压侧进行测试。

作文

In the world of electrical engineering, understanding the various components and their roles is crucial for both safety and efficiency. One such critical aspect is the concept of voltage levels in power systems. When discussing transformers, for example, we often refer to the different sides of the transformer: the primary side and the secondary side. The primary side is where the input voltage is applied, while the secondary side delivers the output voltage. However, there is a specific term that comes into play when we focus on high-voltage systems: on high-tension side. This phrase refers to the part of the transformer or electrical system that operates at high voltage, which is typically above 1000 volts. Understanding what it means to be on high-tension side is essential for anyone working with or studying electrical systems.The significance of being on high-tension side cannot be overstated. High-tension systems are designed to transmit electricity over long distances with minimal loss. This is because higher voltages allow for lower currents, which reduces the amount of heat generated in the conductors. As a result, electrical utilities rely heavily on high-tension transmission lines to deliver power from generation plants to substations. These lines can carry thousands of volts, making them efficient but also dangerous. Working on high-tension side requires specialized training and equipment to ensure the safety of personnel and the integrity of the system.Moreover, the equipment used on high-tension side must meet stringent safety standards. Insulators, circuit breakers, and transformers are all designed to handle the immense pressures and potential hazards associated with high-voltage electricity. For instance, insulators prevent unintended current flow, ensuring that electric energy travels along the intended path. Circuit breakers are crucial for protecting the system from overloads and faults, automatically disconnecting the circuit when necessary. Understanding how these components function on high-tension side is vital for engineers and technicians working in the field.Additionally, safety protocols on high-tension side are paramount. Electrical workers must adhere to strict regulations to protect themselves from the risks associated with high voltage. This includes wearing appropriate personal protective equipment (PPE), using insulated tools, and following lockout/tagout procedures to ensure that no accidental energization occurs during maintenance work. Training programs emphasize the dangers of working on high-tension side and teach workers how to recognize and mitigate these risks effectively.In conclusion, the phrase on high-tension side encapsulates a critical aspect of electrical engineering that pertains to high-voltage systems. Whether discussing the transmission of electricity or the safety measures necessary for working with such systems, understanding this term is essential for professionals in the field. High-tension systems play a vital role in our modern infrastructure, enabling the efficient delivery of power while requiring rigorous safety protocols to protect both workers and equipment. Therefore, anyone involved in electrical engineering or maintenance must develop a thorough comprehension of what it means to operate on high-tension side and the responsibilities that come with it.

在电气工程的世界中，理解各种组件及其作用对于安全和效率至关重要。一个关键方面是电力系统中的电压水平概念。例如，在讨论变压器时，我们通常会提到变压器的不同侧面：初级侧和次级侧。初级侧是施加输入电压的地方，而次级侧则提供输出电压。然而，当我们关注高电压系统时，有一个特定的术语出现：on high-tension side。这个短语指的是变压器或电气系统中在高电压下运行的部分，通常是超过1000伏特。理解什么是处于on high-tension side是任何从事电气系统工作或学习的人都必须掌握的。处于on high-tension side的重要性不容小觑。高压系统旨在以最小的损耗远距离传输电力。这是因为较高的电压允许较低的电流，从而减少导体中产生的热量。因此，电力公司在将电力从发电厂输送到变电站时，严重依赖高压输电线路。这些线路可以承载数千伏特，使其高效但也危险。在on high-tension side工作需要专业的培训和设备，以确保人员的安全和系统的完整性。此外，使用在on high-tension side的设备必须符合严格的安全标准。绝缘体、断路器和变压器都设计用于处理与高电压电力相关的巨大压力和潜在危害。例如，绝缘体防止意外电流流动，确保电能沿着预定路径传输。断路器对保护系统免受过载和故障至关重要，在必要时自动断开电路。理解这些组件在on high-tension side的功能对在该领域工作的工程师和技术人员至关重要。此外，on high-tension side的安全协议至关重要。电气工人必须遵守严格的规定，以保护自己免受高电压相关风险的影响。这包括穿戴适当的个人防护装备（PPE）、使用绝缘工具，以及遵循锁定/标记程序，以确保在维护工作期间不会发生意外通电。培训项目强调了在on high-tension side工作所带来的危险，并教导工人如何有效识别和减轻这些风险。总之，短语on high-tension side概括了与高电压系统相关的电气工程的一个关键方面。无论是讨论电力的传输还是与此类系统相关的安全措施，理解这个术语对于该领域的专业人士来说都是至关重要的。高压系统在我们现代基础设施中发挥着重要作用，使电力的高效输送成为可能，同时要求严格的安全协议来保护工人和设备。因此，任何参与电气工程或维护工作的人都必须全面理解在on high-tension side操作的含义以及随之而来的责任。